ライフサイエンスコーパス: MPI

1 MPI already offers superb contrast and extraordinary sen

2 MPI and beta coefficients were significantly increased i

3 MPI appears to be a valid plaque-scoring system that ass

4 MPI assessed by tissue Doppler imaging M-mode is a simpl

5 MPI directly detects the intense magnetization of iron-o

6 MPI however is not related to the estimated neural excit

7 MPI hydrolysates may have potential for use as dietary i

8 MPI is safe, noninvasive and offers superb sensitivity,

9 MPI provided independent prognostic information in a mul

10 MPI uses magnetic nanoparticle contrast agents that are

11 MPI using CZT SPECT cameras and quantitative gated SPECT

12 hology at 6 MPI (P = 0.01), with a HAI at 11 MPI (P = 0.8) similar to that of H. pylori-infected mice

13 developed more severe gastric pathology at 6 MPI (P = 0.01), with a HAI at 11 MPI (P = 0.8) similar t

14 MPI classified as inappropriate, an abnormal MPI failed to predict major adverse cardiac events, alth

15 MPI (n = 51) than in patients with abnormal MPI (1.61 [interquartile range (IQR), 1.33-2.03] vs. 1.2

16 ere were 23 remaining patients with abnormal MPI (16 having moderate to severe perfusion defect size)

17 Patients with abnormal MPI usually underwent invasive coronary angiography; all

18 Of the 41 patients with abnormal MPI, 18 had left heart catheterization (9 were false-pos

19 For patients with abnormal MPI, left heart catheterization were reviewed if perform

20 d until March 2015 for studies evaluating AC MPI for the diagnosis of CAD.

21 evel in the myocardium required for accurate MPI.

22 difficult to compare detection limits across MPI publications we propose guidelines to improve the co

23 One year after MPI and hospital discharge, all patients were living and

24 Although MPI resolution is highly dependent on tracer characteris

25 CPU version; an OpenMP-based version; and an MPI-based version.

26 e lowest value that has been reported for an MPI scanner so far.

27 n (compared with CICDA) of active CD with an MPI threshold of 24 video intensity (VI) (sensitivity, 9

28 hy or computed tomographic angiography), and MPI.

29 The CCTA and MPI groups did not significantly differ in outcomes or r

30 For the CCTA and MPI groups, the incidence of death (0.5% versus 3%; P =

31 I, the GES outperformed clinical factors and MPI.

32 ecution time using concurrent processing and MPI on four virtual cores.

33 Compared with traditional serial and MPI-based algorithms, BioPig has three major advantages:

34 artery disease, pharmacological stress, and MPI ischemia.

35 peed-up in comparison to multi-threading and MPI techniques.

36 Furthermore, appropriate MPI use provided incremental prognostic value beyond myo

37 d Clinic Institutional Review Board-approved MPI database, we identified consecutive patients without

38 ined peripheral blood samples for GES before MPI in 537 consecutive patients.

39 However, there was no relationship between MPI and the slopes of the psychometric functions.

40 Results from both MPI methods were compared, and correlation coefficients

41 Thus, both MPI activity and exogenous mannose concentration determi

42 ne produces two major isoforms in the brain, MPI and MPc.

43 We calculated MPI's benefit-to-risk ratios, defined by the annualized

44 d heterozygous mutations of PMM2 (PMM2-CDG), MPI (MPI-CDG), ALG3 (ALG3-CDG), ALG12 (ALG12-CDG), DPAGT

45 CMR-MPI/LGE had 79% sensitivity, 95% specificity, positive p

46 whole-heart MRCA integration into a 1.5T CMR-MPI/LGE protocol for the detection of functionally signi

47 est probability underwent CMR (including CMR-MPI, MRCA, and LGE) and x-ray invasive coronary angiogra

48 formances of MRCA, CMR-MPI/LGE, and MRCA+CMR-MPI/LGE integration were determined having XA+fractional

49 Diagnostic performances of MRCA, CMR-MPI/LGE, and MRCA+CMR-MPI/LGE integration were determine

50 acy of a comprehensive 1.5-T stress-rest CMR-MPI/LGE protocol at a cost of longer scanning times.

51 Integration of MRCA with CMR-MPI/LGE further improved CMR performance to 96% sensitiv

52 uantification of MFR in (13)N-ammonia PET/CT MPI provides a substantial added diagnostic value for de

53 d adenosine stress-rest (13)N-ammonia PET/CT MPI, and MFR was calculated.

54 of possible excitation strategies by current MPI hardware that only does sinusoidal drive waveforms a

55 Currently MPI nanoparticles have diameters in the 10-20 nanometer

56 o determine the feasibility of very low dose MPI by exploring the minimal count level in the myocardi

57 al approach to performing low-radiation-dose MPI using traditional and novel technologies.

58 ndent trigger in oocyte elimination in early MPI.

59 vings was 48% for ETT compared with exercise MPI (P<0.001).

60 broad stimulation of the cochlea facilitates MPI.

61 st pain who were candidates for stress-first MPI underwent injection of approximately 185 MBq (5 mCi)

62 Here we report the first MPI cell tracking study, showing 200-cell detection in v

63 Limited prognostic data are available for MPI with PET.

64 eties developed appropriate-use criteria for MPI.

65 developed a systems theoretic framework for MPI called x-space MPI, which has already dramatically i

66 In this population clinically referred for MPI, the GES outperformed clinical factors and MPI.

67 iron oxide nanoparticle tracers required for MPI are also used in MRI, and some are already approved

68 lines to improve the comparability of future MPI studies.

69 Gated MPI data were processed using quantitative gated SPECT s

70 sodilator stress, followed by standard gated MPI.

71 ) patients who had CCTA and 32 (16%) who had MPI underwent cardiac catheterization within 1 year.

72 however, mothers who are at risk for having MPI-CDG children and who consume mannose during pregnanc

73 differ in their splice acceptor sites; human MPI is translated into a polyglutamine tract associated

74 algorithm has been parallelized using hybrid MPI and OpenMP programming.

75 more than two-thirds of meiotic prophase I (MPI) oocytes before birth.

76 ngenital disorder of glycosylation (CDG)-Ib (MPI-CDG).

77 f phosphomannose isomerase-deficient CDG-Ib (MPI-CDG) cells and complementation with PMM2 in PMM2-def

78 al disorder of glycosylation (CDG), type Ib (MPI-CDG or CDG-Ib) have mutations in phosphomannose isom

79 hown characteristics of an essentially ideal MPI tracer.

80 y which MPI loss induces p53, and identifies MPI as a novel regulator of p53 and Warburg metabolism.

81 76; boys without konzo p=0.0224) and KABC-II MPI performance at 2-year follow-up and 4-year follow-up

82 4-year follow-up, the difference in KABC-II MPI score between boys or girls with or without konzo wa

83 oncentration was not associated with KABC-II MPI score for either boys or girls.

84 demonstrate that Magnetic Particle Imaging (MPI) enables monitoring of cellular grafts with high con

85 Magnetic Particle Imaging (MPI) is a promising new tracer modality with zero attenu

86 Magnetic particle imaging (MPI) is a promising tomographic imaging technique that a

87 Application of Magnetic Particle Imaging (MPI) to humans is similarly PNS constrained.

88 ng method, called Magnetic Particle Imaging (MPI), to replace X-ray and CT iodinated angiography, esp

89 mography (PET) myocardial perfusion imaging (MPI) and the improved classification of risk in a large

90 CTA) and SPECT myocardial perfusion imaging (MPI) are complementary imaging techniques to assess coro

91 ne stress-rest myocardial perfusion imaging (MPI) by (99m)Tc-tetrofosmin CZT SPECT and (13)N-ammonia

92 forming stress myocardial perfusion imaging (MPI) for intermediate- to high-risk patients presenting

93 graphy (SPECT) myocardial perfusion imaging (MPI) has changed over time.

94 ng rest-stress myocardial perfusion imaging (MPI) in the evaluation of acute low-risk chest pain.

95 esonance (CMR) myocardial perfusion imaging (MPI) is a state-of-the-art noninvasive modality for dete

96 Myocardial perfusion imaging (MPI) is well established in the diagnosis and workup of

97 mography (PET) myocardial perfusion imaging (MPI) offers technical benefits compared with single phot

98 Radionuclide myocardial perfusion imaging (MPI) plays a vital role in the evaluation and management

99 t (82)Rubidium myocardial perfusion imaging (MPI) positron emission tomography (PET) and CAC scan.

100 Although SPECT myocardial perfusion imaging (MPI) provides valuable information about patients with c

101 icle for SPECT myocardial perfusion imaging (MPI) quantification often requires manual adjustment, wh

102 CT, to acquire myocardial perfusion imaging (MPI) studies in a quarter of the time (12 s/view) of the

103 graphy (SPECT) myocardial perfusion imaging (MPI) underwent a comprehensive cardiac computed tomograp

104 he accuracy of myocardial perfusion imaging (MPI) using cadmium-zinc-telluride (CZT) SPECT cameras fo

105 ection (AC) of myocardial perfusion imaging (MPI) with a virtual unenhanced cardiac CT scan synthesiz

106 Hybrid PET myocardial perfusion imaging (MPI) with CT allows the incorporation of coronary artery

107 an adjunct to myocardial perfusion imaging (MPI) with SPECT for cardiac risk stratification before n

108 Myocardial perfusion imaging (MPI) with SPECT is a well-established tool for the diagn

109 eria (AUC) for myocardial perfusion imaging (MPI) with SPECT on the estimated lifetime attributable r

110 mography (PET) myocardial perfusion imaging (MPI) with Tc-99m single-photon emission computed tomogra

111 ostic value of myocardial perfusion imaging (MPI) with the cadmium-zinc-telluride (CZT) SPECT camera

112 graphy (SPECT)-myocardial perfusion imaging (MPI), a technique that is a mainstay of risk assessment

113 oses for SPECT myocardial perfusion imaging (MPI), but the exact limits for lowering doses have not b

114 own promise in myocardial perfusion imaging (MPI).

115 s referred for myocardial perfusion imaging (MPI).

116 ted tomography myocardial perfusion imaging (MPI).

117 tional nuclear myocardial perfusion imaging (MPI).

118 nuclide stress myocardial perfusion imaging (MPI).

119 uisition time of 12 s/view can be applied in MPI without the loss of diagnostic accuracy.

120 ch have not been experimentally evaluated in MPI to date.

121 However, because of a steep growth in MPI in the mid 2000s, concerns about inappropriate use o

122 combined end point per each 0.1 increase in MPI.

123 the iron oxide nanoparticle tracers used in MPI.

124 Inappropriate MPI use is associated with excess cancer risk and lower

125 Patients with inappropriate MPI had significantly higher LAR (median, 0.08% vs. 0.06

126 al value as part of a CMR protocol including MPI and late gadolinium enhancement (LGE) is not well es

127 n of L1 expression correlates with increased MPI defects, FOA, oocyte aneuploidy, and embryonic letha

128 filling (E/A), myocardial performance index (MPI) and aortic stiffness (pulse wave velocity; PWV) wer

129 eby obtain the myocardial performance index (MPI).

130 index termed the microvessel pericyte index (MPI), a measure of permeability in the blood-brain barri

131 aims to develop a new marginal plaque index (MPI) and to assess its validity and treatment sensitivit

132 t the Global Multidimensional Poverty Index (MPI) at a finest spatial granularity and coverage of 552

133 =0.0424) and on the Mental Processing Index (MPI; p=0.0111) assessments at 2-year follow-up, but girl

134 We hypothesized that inhibiting MPI enzymatic activity would provide more Man-6-P for gl

135 electrical hearing, multipulse integration (MPI) describes the rate at which detection threshold dec

136 ves to determine the maximum peak intensity (MPI) and wash-in slope coefficient (beta) and evaluated

137 MbFe(IV)O by a myofibrillar protein isolate (MPI) from pork resulted in kMPI=2.2 +/- 0.1 x 10(4)M(-1)

138 g hydrolysis of bovine milk protein isolate (MPI) with Neutrase 0.8L, yielding 15 hydrolysates (H1-H1

139 physical stability of milk protein isolate (MPI)-carbohydrate nutritional beverages containing 8.5%

140 ciated role for Mannose phosphate isomerase (MPI) as a metabolic enzyme required to maintain Warburg

141 have mutations in phosphomannose isomerase (MPI) that impair glycosylation and lead to stunted growt

142 om glucose through phosphomannose isomerase (MPI, Fru-6-P <--> Man-6-P) whose deficiency causes a con

143 x Planck Institute for Biogeochemistry Jena (MPI-Jena).

144 Site and core-laboratory MPI had areas under the curve of 0.59 and 0.63, respecti

145 associated with excess cancer risk and lower MPI's benefit-to-risk ratio.

146 inhibitors in both tomato (PIN2) and maize (MPI).

147 ding using alternative methods for measuring MPI and spread of neural excitation.

148 erozygous mutations of PMM2 (PMM2-CDG), MPI (MPI-CDG), ALG3 (ALG3-CDG), ALG12 (ALG12-CDG), DPAGT1 (DP

149 Furthermore, MSAProbs-MPI using eight nodes is faster than the GPU-accelerated

150 In this work we present MSAProbs-MPI, a distributed-memory parallel version of the multit

151 Another strong point is that MSAProbs-MPI can deal with large datasets for which MSAProbs and

152 of AC versus non-attenuation-corrected (NAC) MPI.

153 one third of those with events had a normal MPI, indicating a need for improved risk stratification.

154 All patients had normal MPI.

155 .5 to 9.6; p < 0.0001], respectively [normal MPI: referent]).

156 MPR index was higher in patients with normal MPI (n = 51) than in patients with abnormal MPI (1.61 [i

157 Particularly in patients with normal MPI results, quantification of MFR helps to unmask clini

158 In symptomatic patients with normal MPI, global CFR but not CAC provides significant increme

159 ary revascularization than those with normal MPI.

160 , negative predictive value, and accuracy of MPI for detecting significant CAD were 79%, 80%, 91%, 59

161 ifact that limits the diagnostic accuracy of MPI.

162 The web server takes advantage of MPI parallel implementation in DelPhiPKa and can run a s

163 o determine whether the combined analysis of MPI and CAC could improve the diagnostic accuracy of PET

164 ue as an aid to semiquantitative analysis of MPI.

165 The functional consequences of MPI loss are striking: glycolysis is blocked and cells d

166 Convergence of MPI with TQHI and concurrent and predictive validity wit

167 Integration of MPI-based parallelization allows scalability and rapid p

168 it is unknown how far the detection limit of MPI can be lowered.

169 bability of revascularization within 6 mo of MPI, accounting for relevant covariates.

170 s emerged and facilitated the performance of MPI with low-dose and ultra-low-dose radiotracers.

171 (AC) improved the diagnostic performance of MPI, using coronary angiography as a reference standard.

172 However, the spatial resolution of MPI is limited to around 1 mm currently and urgently nee

173 tically improved the speed and robustness of MPI image reconstruction.

174 The treatment sensitivity of MPI exceeds TQHI by far.

175 ongly impacts heat and physical stability of MPI-carbohydrate nutritional beverages.

176 The two main strengths of MPI are high temporal resolution and high sensitivity.

177 death, increased with increasing tertile of MPI, being approximately 3 times as high for the third t

178 d 2000s, concerns about inappropriate use of MPI and imaging-related radiation exposure increased.

179 tudy was to evaluate the prognostic value of MPI performed with a CZT SPECT camera in a large cohort

180 tent with a key role for the Cys residues on MPI as targets for haem protein-mediated oxidation.

181 vements include a new workflow optimization, MPI-parallelization and fast backbone angle sampling bas

182 characterize magnetic particles and optimize MPI drive waveforms for in vitro biosensing and in vivo

183 uated the added diagnostic value of MFR over MPI alone as assessed with (13)N-ammonia and PET/CT to p

184 ically indicated rest/stress rubidium-82 PET MPI, with a median follow-up of 2.2 years.

185 g 108 evaluating SPECT MPI, 4 evaluating PET MPI, and 5 evaluating both modalities.

186 could improve the diagnostic accuracy of PET MPI in detection of obstructive coronary artery disease

187 ent and severity of ischemia and scar on PET MPI provided powerful and incremental risk estimates of

188 In a meta-analysis of 11,862 patients, PET MPI demonstrated a higher sensitivity for coronary arter

189 y) without prior CAD, referred to (82)Rb PET MPI followed by invasive coronary angiography performed

190 logCAC score improves accuracy of (82)Rb PET MPI for detection of obstructive CAD.

191 In this phase 2 trial, PET MPI with flurpiridaz F 18 was safe and superior to SPECT

192 Images were recorded by using a preclinical MPI demonstrator.

193 atment sensitivity was observed for proximal MPI measures in study 1, whereas study 2 showed largest

194 5 diagnostic patients undergoing stress-rest MPI between 1991 and 2009.

195 erwent clinically indicated (99m)Tc-setamibi MPI were categorized into appropriate/uncertain (n = 823

196 timulus level function would predict shallow MPI since the amount of current reduction necessary to c

197 X-space MPI has allowed us to optimize the hardware for fi ve MP

198 Moreover, x-space MPI provides a powerful framework for optimizing the siz

199 X-space MPI theory predicts that larger nanoparticles could enab

200 s theoretic framework for MPI called x-space MPI, which has already dramatically improved the speed a

201 SPECT MPI findings and CACS are strong preoperative risk predi

202 SPECT MPI is a well-established and widely used tool for preop

203 s underwent rest-stress PET and Tc-99m SPECT MPI.

204 Conversely, in patients with abnormal SPECT MPI findings, a CACS of 1,314 or more confers an added v

205 In patients with abnormal SPECT MPI, the extent of abnormality is independently associat

206 llected from patients before and after SPECT MPI (n=63).

207 Integrated analysis of cardiac CTA and SPECT MPI using the SMARTVis system results in an improved dia

208 ic patients who underwent both CTA and SPECT MPI within a 90-d period were included in our study; 7 o

209 ditional low-dose CT scan for CACS and SPECT MPI.

210 cted in the pooled analysis of PET and SPECT MPI.

211 The potential added value of combining SPECT MPI with CACS is unknown.

212 agnostic value of a software-based CTA/SPECT MPI image fusion system over conventional side-by-side a

213 on of absolute MBF index values by CZT SPECT MPI with (99m)Tc-tetrofosmin is technically feasible, al

214 coronary artery disease underwent CZT SPECT MPI.

215 117 studies, including 108 evaluating SPECT MPI, 4 evaluating PET MPI, and 5 evaluating both modalit

216 d rest (5 min; 1,024 +/- 153 MBq) fast SPECT MPI attenuation corrected (AC) by CT and same-day corona

217 d rest (5 min; 1,024 +/- 153 MBq) fast SPECT MPI attenuation corrected (AC) by CT and same-day corona

218 ecutive patients who were referred for SPECT MPI for preoperative cardiac risk assessment before elec

219 eled rotenone derivative developed for SPECT MPI.

220 cal effects of low-dose radiation from SPECT MPI, we measured the activation of the DNA damage respon

221 mography myocardial perfusion imaging (SPECT MPI) has improved the diagnosis and risk stratification

222 ization, decreasing user dependence in SPECT MPI quantification.

223 ization, decreasing user dependence in SPECT MPI quantification.

224 ts and the minimum acquisition time in SPECT MPI using an IQ SPECT protocol, while preserving diagnos

225 CMICE-013 is a promising new SPECT MPI agent.

226 re, and lowest in patients with normal SPECT MPI findings and low CACS (5%) (CACS < 1,314).

227 s than 1,314 is associated with normal SPECT MPI findings.

228 egration and combined visualization of SPECT MPI and CTA data may facilitate correlation of myocardia

229 The levels of clinical agreement of SPECT MPI corrected with standard versus virtual unenhanced CT

230 Our results suggest that AC of SPECT MPI with a virtual unenhanced CT scan synthesized from c

231 sitivity and specificity of PET and/or SPECT MPI with coronary angiography as the reference standard

232 ivity for coronary artery disease than SPECT MPI.

233 Our findings showed that SPECT MPI resulted in a variable activation of the DNA damage

234 rpiridaz F 18 was safe and superior to SPECT MPI for image quality, interpretative certainty, and ove

235 -photon emission computed tomography (SPECT) MPI with regard to image quality, interpretative certain

236 photon emission computed tomography (SPECT) MPI, but there has been no systematic comparison of thei

237 Notably, the frequency of abnormal SPECT-MPI is now very low among exercising patients without ty

238 omputed tomography perfusion (CTP) and SPECT-MPI, but the value of resting CTP (rCTP) in acute chest

239 undergoing outpatient, community-based SPECT-MPI was conducted.

240 ninferior discriminatory value to CCTA/SPECT-MPI (area under the curve, 0.88 versus 0.90; P=0.64) usi

241 CCTA/rCTP is noninferior to CCTA/SPECT-MPI to discriminate ACS and presents an attractive alter

242 ified on the basis of the 2009 AUC for SPECT-MPI into an appropriate or uncertain appropriateness gro

243 mography-myocardial perfusion imaging (SPECT-MPI) has high predictive value for acute coronary syndro

244 performed for appropriate indications, SPECT-MPI continues to demonstrate high prognostic value.

245 Similarly, the prevalence of ischemic SPECT-MPI declined, from 29.6% to 5.0% (p < 0.001), as did the

246 and frequency of abnormal and ischemic SPECT-MPI.

247 The decline of SPECT-MPI abnormality occurred among all age and symptom subgr

248 opriate use on the prognostic value of SPECT-MPI is unknown.

249 nt predictor of myocardial ischemia on SPECT-MPI in the presence of stenosis (>/=50% on CTA), with a

250 a subgroup undergoing late rest/stress SPECT-MPI (n=81), CCTA/rCTP had noninferior discriminatory val

251 and compared early rCTP to late stress SPECT-MPI in patients with CAD presenting with suspicion of AC

252 quency and severity of abnormal stress SPECT-MPI studies has progressively decreased.

253 ly than exercise to be associated with SPECT-MPI abnormality (odds ratio: 1.43, 95% confidence interv

254 Standard MPI was evaluated semiquantitatively, and total perfusio

255 e compute system using the industry-standard MPI protocol, and no specialised hardware is required.

256 rves, with broader tuning predicting steeper MPI, confirming the earlier finding.

257 Stress MPI for evaluation of syncope in patients without known

258 Clinical information, stress MPI variables, and cardiac events were prospectively col

259 We investigated the yield of stress MPI for the evaluation of syncope in patients at risk bu

260 The diagnostic yield of stress MPI was similarly low among all cardiovascular risk cate

261 -sestamibi exercise or adenosine rest-stress MPI for clinical indications using a cadmium-zinc-tellur

262 y and specificity of PET versus SPECT stress MPI for >/=50% stenosis of any epicardial coronary arter

263 years; 55% female) who had undergone stress MPI for syncope; 659 patients (94%) had normal perfusion

264 coronary artery disease who underwent stress MPI between 2006 and 2012 for diagnostic workup of synco

265 In human subjects, MPI has been shown to be dependent on the psychophysical

266 e second aim was to test the hypothesis that MPI is related to the slope of the psychometric function

267 Our findings show that MPI acquired with a CZT SPECT camera provides excellent

268 Results showed that MPI was correlated with the slopes of the tuning curves,

269 The MPI function was measured by obtaining adaptive detectio

270 value of the cardiac time intervals and the MPI assessed by color tissue Doppler imaging M-mode thro

271 rs for the CCTA group and 30.4 hours for the MPI group (P = 0.057).

272 illuminating blood vessels when used in the MPI modality.

273 For instance, the MPI-based version of MoTeX-II requires only a couple of

274 nt and predictive validity parameters of the MPI are similar to the TQHI.

275 was stratified according to tertiles of the MPI.

276 Blocking of the protein thiol groups on the MPI by N-ethylmaleimide (NEM) markedly reduced this rate

277 esses of some plant extracts relative to the MPI thiol concentration should afford significant protec

278 el version is implemented in ANSI C with the MPI library (a standardized and portable parallel enviro

279 The added value of MFR as an adjunct to MPI for predicting CAD (luminal narrowing >/= 50%) was e

280 study suggested that AC should be applied to MPI to improve the diagnosis of CAD, especially the spec

281 a cutoff of less than 2.0 for global MFR to MPI findings improved the values to 96% (P < 0.005), 80%

282 d single-photon emission computed tomography MPI.

283 s and radiation doses of patients undergoing MPI on an HE-SPECT camera using an ultra-low-dose stress

284 suspected coronary artery disease underwent MPI using a CZT SPECT camera, as well as cine and delaye

285 ltaneously, we demonstrate the first untuned MPI spectrometer/relaxometer with unprecedented 400 kHz

286 eability in the blood-brain barrier, we used MPI in a hybrid physiologically-based pharmacokinetic (P

287 By using MPI, both balloon catheters could be visualized with hig

288 it was executed on two computing nodes using MPI, with each node containing twelve cores.

289 llowed us to optimize the hardware for fi ve MPI scanners.

290 In-vivo MPI mouse images of a 512 ng bolus and a 21.5 ms acquisi

291 ose directly from exogenous mannose, whereas MPI-deficient CDG fibroblasts with reduced glucose flux

292 work provides mechanistic evidence by which MPI loss induces p53, and identifies MPI as a novel regu

293 Among the 823 subjects (54.5%) whose MPIs were classified as appropriate (779, 51.6%) or unce

294 Among the 688 subjects (45.5%) with MPI classified as inappropriate, an abnormal MPI failed

295 th a Galaxy workflow system accelerated with MPI and Python threading on compute clusters.

296 Compared with MPI, CCTA was associated with less radiation exposure an

297 in vitro biosensing and in vivo imaging with MPI.

298 in cultured fibroblasts of individuals with MPI- and PMM2-CDGs.

299 tain use neutralizes the sex gap in LAR with MPI.

300 Incorporation of glucose polymers with MPI retarded sedimentation of protein during accelerated